Rf coil assembly

ABSTRACT

A RF coil assembly, comprising: one or more coil elements arranged on a shell, a cable connector electrically connected to the coil elements, the cable connector including a number of inner wires enclosed with an outer insulative jacket, and the cable having a first end connect to a connector and a second end rotatably connected with the shell, and the inner wires exposed outwardly of the outer insulative jacket of the second end of the cable and electrically connected to the coil elements.

CROSS REFERENCE TO RELATED APPLICATIONS

This application claims priority of Chinese Patent Application No.201510594716.3 filed on Sep. 17, 2015, which is hereby incorporated byreference in its entirety.

TECHNICAL FIELD

The present disclosure generally relates to magnetic resonance imaging(MRI), and more particularly, to a radio frequency (RF) coil for MRI.

BACKGROUND

Magnetic Resonance Imaging (MRI), also called Spin imaging, NuclearMagnetic resonance imaging (NMRI) is a widely used medical technique,which is a great progress after Computed Tomography (CT). Since 1980's,MRI has been developing very fast and utilizing in different fields. Itsbasic principle is that by disposing a body in a special magnetic field,and the body's hydrogen atoms can be polarized; then radio frequencypulses are used for stimulating the hydrogen nuclei of the body, and thehydrogen nuclei absorb RF energy and start resonating. After stoppingthe RF pulse, hydrogen nuclei emit a specific radio frequency signal,which is detected by RF coils (RF antennas), the specific radiofrequency signal is transmitted to a computer and an MR imaging ofregion of interest (ROI) of the body is reconstructed.

MRI can provide a lot of information of ROI of the body, more than othermedical imaging. It is very easy to get anatomy imaging along crosssection/sagittal section/coronal section of ROI of the body.Furthermore, the MRI art has other advantages, it does not produceionizing radiation for the body, and therefore there is no adverseeffects on the body, so the MRI art is used widely in medical field.

The RF coil is an important component of the magnetic resonance imagingsystem, and the RF coil can not only generate RF pulses for excitinghydrogen nuclei of the body, but also receive magnetic resonance signalsof the body. The magnetic resonance signals can be processed later toreconstruct anatomy imaging, which may be 2D/3D imaging. In order toacquire better MR signal and improve signal noise ratio (SNR) of theimaging, a local coil (RF coil) is widely used. Commonly, the local coilis specifically designed for corresponding part of the body, such ashead coil, wrist coil, spine coil, etc.

The RF coil is connected to a computer of MR system via transmittinglines. In consideration of convenience for operating this tool, there isonly one cable with several inner wires connecting to coil elements ofthe RF coil. However, as a number of transmission channels increases,the outer diameter of the cable also increases, so the cable becomessomewhat rigid. In addition, the cable is fixed to the RF coil, andthere is less movement space between joining portion therebetween, andit is not facilitate to use this kind of RF coil.

SUMMARY

In a first aspect of the present disclosure, a RF coil in magneticresonance imaging is provided. A RF coil assembly comprises: one or morecoil elements arranged on a shell, a cable connector electricallyconnected to the coil elements, the cable connector including a numberof inner wires enclosed with an outer insulative jacket, and the cablehaving a first end connect to a connector and a second end rotatablyconnected with the shell, and the inner wires exposed outwardly of theouter insulative jacket of the second end of the cable and electricallyconnected to the coil elements.

In some embodiments, the second end of the cable is pivotally coupled tothe shell.

In some embodiments, the second end of the cable is connected to theshell by a rotational device.

In some embodiments, the rotational device has a rotating unit securedto the second end of the cable.

In some embodiments, the rotating unit includes an upper half and alower half assembled together along up-to-down direction.

In some embodiments, the upper half has a first cylindrical portionprotruding upwardly and a first positioning portion projectinglaterally, the lower half has a second cylindrical portion protrudingdownwardly and a second positioning portion projecting laterally.

In some embodiments, the second end of the cable is sandwiched by thefirst positioning portion and the second positioning portion.

In some embodiments, the rotational device has a holding member tosupport the rotating unit, and the rotating unit is capable of rotatingrelative to the holding member.

In some embodiments, the holding member is coupled to the shell.

In a second aspect of the present disclosure, a RF coil assembly isprovided. The RF coil comprises an RF coil and a cable connector, the RFcoil having a shell enclosing an interior room for receiving a scannedsubject, and plurality of coil elements secured to the shell anddisposed outside of the interior room, and the cable connectorelectrically connected to the coil elements, and the cable connectorhaving a cable and a connector connected to a first end of the cable,and the cable having a second end mechanically connected with the shellvia a rotational device.

In some embodiments, the cable connector includes a cable connector isdisposed in cantilevered manner.

In some embodiments, the cable connector has a mating port facingdownwardly.

In some embodiments, the interior room of the shell has a front opening,and the mating port is disposed adjacent to a rear end of the shell.

In some embodiments, the cover has a recess portion at a lateral lowerside, and the cable connector is received therein.

In a third aspect of the present disclosure, a RF coil assembly isprovided. The RF coil assembly comprises one or more coil elementsarranged on a shell, a cable connector electrically connected to thecoil elements, the cable connector including a number of inner wiresenclosed with an outer insulative jacket, and the cable having a firstend connect to a connector and the inner wires exposed outwardly of theouter insulative jacket of the second end of the cable and electricallyconnected to the coil elements, and the connector capable of swing froma first position to a second position.

In some embodiments, the second end of the cable is moveable relative tothe shell.

In some embodiments, a rotational device is pivotally engaged with thesecond end of the cable and coupled to the cover.

In some embodiments, the rotatable device includes a rotating unit, aholding member and a fame, and the rotating unit is secured to thesecond end of the cable and is capable of rotating within the holdingmember, and the holding member is mounted to the frame which is fixed tothe shell.

In some embodiments, the holding member has a main body and a supportingpanel laterally extending therefrom, and the main body defines areceiving space adapting the rotating unit and the inner wires are fixedto the supporting panel.

In some embodiments, the inner wires are configured to be serpentinetype.

Additional features will be set forth in part in the description whichfollows, and in part will become apparent to those skilled in the artupon examination of the following and the accompanying drawings or maybe learned by production or operation of the examples. The features ofthe present disclosure may be realized and attained by practice or useof various aspects of the methodologies, instrumentalities andcombinations set forth in the detailed examples discussed below.

BRIEF DESCRIPTION OF THE DRAWINGS

The present disclosure is further described in terms of exemplaryembodiments. These exemplary embodiments are described in detail withreference to the drawings. These embodiments are non-limiting exemplaryembodiments, in which like reference numerals represent similarstructures throughout the several views of the drawings, and wherein:

FIG. 1 is an assembled, perspective view of a RF coil assembly accordingto a first embodiment of the present disclosure;

FIG. 2 is a back elevational view of the RF coil assembly shown in FIG.1;

FIG. 3 is a schematic diagram illustrating a cable connectorrotating/swing relative to a shell of the RF coil assembly;

FIG. 4 is an exploded perspective view of the RF coil assembly shown inFIG. 1;

FIG. 5 is an exploded perspective view of the shell of the RF coilassembly;

FIG. 6 is an exploded perspective view of a rotational device of the RFcoil assembly;

FIG. 7 is an exploded perspective view of a rotating unit and a cable ofthe RF coil assembly;

FIG. 8 is an assembled, perspective view of the rotational device and acable connector of the RF coil assembly.

DETAILED DESCRIPTION

The following description is presented to enable any person skilled inthe art to make and use the invention, and is provided in the context ofa particular application and its requirements. Various modifications tothe disclosed embodiments will be readily apparent to those skilled inthe art, and the general principles defined herein may be applied toother embodiments and applications without departing from the spirit andscope of the present invention. Thus, the present invention is notlimited to the embodiments shown, but is to be accorded the widest scopeconsistent with the claims.

It will be understood that when a module or unit is referred to as being“on”, “connected to” or “coupled to” another module or unit, it may bedirectly on, connected or coupled to the other module or unit orintervening module or unit may be present. In contrast, when a module orunit is referred to as being “directly on,” “directly connected to” or“directly coupled to” another module or unit, there may be nointervening module or unit present. As used herein, the term “and/or”includes any and all combinations of one or more of the associatedlisted items.

The terminology used herein is for the purpose of describing particularexample embodiments only and is not intended to be limiting. As usedherein, the singular forms “a,” “an,” and “the” may be intended toinclude the plural forms as well, unless the context clearly indicatesotherwise. It will be further understood that the terms “comprise”and/or “comprising,” when used in this specification, specify thepresence of stated features, integers, steps, operations, elements,and/or components, but do not preclude the presence or addition of oneor more other features, integers, steps, operations, elements,components, and/or groups thereof.

The present disclosure generally relates to a RF coil used in magneticresonance imaging. Please referring to FIGS. 1-8, the RF coil assembly100 in accordance with the present disclosure comprises a RF coil 10 anda cable connector 20 physically and electrically connected to the RFcoil 10. The RF coil may be head coil, spine coil, wrist coil, etc.

The RF coil 10 includes a shell for supporting a number of coil elements110. The shell may be made of non-magnetic material, e.g., insulativematerial or others. The shell has an upper housing 101 and a lowerhousing, and the lower housing has a lower substrate body 102 and alower outer shielding 103. Some of the coil elements 110 disposedbetween the lower substrate body 102 and the lower outer shielding 103.The coil elements 110 are arranged along outer contour of the lowersubstrate body 102. Also, there are some coil elements 110 arranged onthe upper half by similar manner. The coil elements 110 are made ofcopper foil, copper conductor and flat flexible substrate. Inalternative embodiment, the upper housing and the lower housing may be aunitary structure, and the lower housing may be one piece type. Thelower substrate body 102 has a recess portion 104 at lateral bottom sidethereof, the recess portion 104 is adapted for receiving the cableconnector 20.

It should be noted that the above description of the shell and coilelements is merely provided for the purposes of illustration, and notintended to limit the scope of the present disclosure. For personshaving ordinary skills in the art, multiple variations and modificationsmay be made under the teaching of the present invention. However, thosevariations and modifications do not depart from the scope of the presentdisclosure.

The cable connector 20 includes cable 201 and a connector 202. The cable201 has a first end 2011 and a second end 2012 opposite to each other.The first end 2011 is connected to the connector 202. The cable 201includes a number of inner wires 2013 and an insulative jacket 2014enclosing the inner wires 2013. A certain length of the insulativejacket of the second end is stripped off, with part of the correspondinginner wires 2013 exposing outward and further electrically connected tothe coil elements 110. The second end 2012 is joined to shell of the RFcoil 10 and capable of rotating to the RF coil 10. The cable 201 ispivotally engaged with the RF coil 10 via a rotatable device, which ismounted to the lower half of the shell. Therefore the cable connector 20is capable of swinging between 0° and 90° in a horizontal plane or avertical plane. Thus, the outlet of the cable is multi-directional,flexible, and is friendly for users. In addition, the cable connector 20is retracting to the recess portion 104, when the RF coil 10 is notworking. The length of the cable 201 is 10 cm-30 cm, and the diameter ofthe cable is 10 mm-30 mm.

It should be noted that the above description of the RF coil 10, thecable connector 20 and their relationship is merely provided for thepurposes of illustration, and not intended to limit the scope of thepresent disclosure. For persons having ordinary skills in the art,multiple variations and modifications may be made under the teaching ofthe present invention. However, those variations and modifications donot depart from the scope of the present disclosure.

The rotatable device includes a rotating unit 30, a holding member 40and a fame 50. The rotating unit 30 is held by the holding member 40,which is further assembled to the frame 50. The frame 50 is fixed to theshell of the RF coil 10.

The rotating unit 30 is mounted into the holding member 40 and capableof rotating with regarding to the holding member 40. The rotating unit30 includes an upper half 301 and a lower half 302 assembled togetheralong up-to-down direction. The upper half 301 has a first cylindricalportion 3011 protruding upwardly and a first positioning portion 3012projecting laterally. The lower half 302 has a second cylindricalportion 3021 protruding downwardly and a second positioning portion 3022projecting laterally. There is a first central shaft 3013 projectingupwardly at a center of the first cylindrical portion 3011, with threeconcaves 3014 disposed around the first central shaft 3013. The firstpositioning portion 3012 is half-shaped tube, with a first retainer 3015located therein. In addition, there are a first positioning rib 3016disposed in an interior of the first cylindrical portion 3011, and afirst positioning hole 3017 disposed at lateral side of the firstpositioning rib 3016. There is a second central shaft 3023 projectingdownwardly at a center of the second cylindrical portion 3021, withthree concaves 3024 disposed around the second central shaft 3023. Thesecond positioning portion 3022 is half-shaped tube, with a secondretainer 3025 therein. In addition, there are a second positioning rib3026 disposed in an interior of the second cylindrical portion 3021, anda second positioning hole 3027 disposed at lateral side of the secondpositioning rib 3026. There is a retaining slot 2015 located in thesecond end 2012, when the rotating unit 30 is mounted to the second end2012, the upper half 301 and the lower half 302 corporately sandwich thesecond end 2012 therebetween, with the first retainer 3015 and thesecond retainer 3025 inserting into the slot 2015, and the firstpositioning rib 3016 engaging with the second positioning hole 3027, andthe first positioning hole 3017 engaging with the second positioning rib3026. Therefore, the second end 2012 is securely fixed to the rotatingunit 30.

It should be noted that the above description of the rotating unit 30 ismerely provided for the purposes of illustration, and not intended tolimit the scope of the present disclosure. For persons having ordinaryskills in the art, multiple variations and modifications may be madeunder the teaching of the present invention. However, those variationsand modifications do not depart from the scope of the presentdisclosure.

The holding member (protecting member) 40 has main body 401 and asupporting panel 402 laterally extending therefrom. The main body 401has a bottom side 4012 and circumferential side wall 4011 togetherdefining a cylindrical shaped receiving space for adapting andprotecting the rotating unit 30. There are a front cutout and a backcutout in the side wall 4011 for the cable 201 and wires 2013 passingtherethrough. In addition, there are two wing portions 4013 extendingfrom the side wall 4011 along the left direction and the rightdirection. Furthermore, there is a central hole 4014 located in thebottom side 4012.

It should be noted that the above description of the holding member 40is merely provided for the purposes of illustration, and not intended tolimit the scope of the present disclosure. For persons having ordinaryskills in the art, multiple variations and modifications may be madeunder the teaching of the present invention. However, those variationsand modifications do not depart from the scope of the presentdisclosure.

The frame 50 has a cubic shaped body 51, with a several mounting panels52 being arranged at upper edges thereof and extending horizontallytherefrom. There are through holes 53 in the mounting panels 52 forscrews passing through and fixing the frame 50 to the lower substratebody 102 of the shell. There is a circular shaped groove 54 located in abottom side of the frame 50, with a central positioning concave 55defined in circular shaped groove 54, and an protrusion 56 arrangednearby the central positioning concave 55. The protrusion 56 is disposedat a cantilevered manner, so as to increase its elastic character.Furthermore, there are a pair of positioning posts 57 disposed outsideof the circular shaped groove 54, with each positioning post 57 having ascrew hole. There is a supporting post 58 formed on the bottom side ofthe frame 50, with corresponding screw hole defined therein.

It should be noted that the above description of the frame 50 is merelyprovided for the purposes of illustration, and not intended to limit thescope of the present disclosure. For persons having ordinary skills inthe art, multiple variations and modifications may be made under theteaching of the present invention. However, those variations andmodifications do not depart from the scope of the present disclosure.

The rotating unit 30, a holding member 40 and the frame 50 are assembledtogether by following way: firstly, the upper half 301 and the lowerhalf 302 are mounted to the second end 2012 of the cable 201; secondly,the upper half 301 is mounted to the circular shaped groove 54, with thefirst central shaft 3013 inserting into the central positioning concave55, and the protrusion 56 stopping by one of the three concaves 3014 toconstrain the rotating unit 30 at a certain position; thirdly, theholding member 40 is mounted to the frame 50, with the rotating unit 30restrained therebetween, and the cable 201 extending outwardly from onecutout of the holding member 40, and the inner wires 2013 extendingoutwardly from another cutout of the holding member 40, the secondcentral shaft 3023 inserting into the central hole 4014 located in thebottom side 4012. The holding member 40 is fixed to the frame 50, byscrews assembled into holes 4015 and positioning posts 57. The rotatingunit 30 is restrained in a space defined by the holding member 40 andthe frame 50, and the rotating unit 30 is capable of swinging orrotating in a certain range of an angle, i.e. between 0° and 90°. Theframe 50 is secured to the lower substrate body 102 by applying screwsinto through holes 53 of the mounting panels 52 and corresponding screwholes in the substrate body 102.

The RF coil assembly further includes a printed circuit board assembly60, which is fastened to supporting post 58. The printed circuit boardassembly has a PCB 61, RF traps 62, resistors 63, capacitors 64, etc.The inner wires 2013 firstly connecting with the RF traps 62, and thenelectrically connecting with the coil elements 110. The inner wires 2013adjacent to the second end 2012 of the cable 201 are scattered andattached to the supporting panel 402, so the inner wires 2013 are looseand flexible, being configured to serpentine type, may be “S” shape. Sowhen the cable 201 is rotating, and the inner wires 2013 are swinging,there is no much twisting force exerting to the inner wires 2013,therefore the second end 2012 gets very good strain relief. Thesupporting member 402 is fan shaped, with several holes located in afront end thereof, fastening band/strap or glue may be employed to fixthe inner wires 2013 to the supporting panel 402. The wires 2013 arearranged into one layer. In alternative embodiment, the second end 2012of the cable 201 is also mounted to the supporting member 402. In otheralternative embodiment, the inner wires 2013 adjacent to the rotatingunit 30 are not exposed outside, instead, there is a transition sectionof the second end 2012 is disposed adjacent to and outward of therotating unit 30 about 2-5 cm, and the insulative jacket of thistransition section is not removed off, and the transition section isfurther coupled with an RF trap, which is further connected to theprinted circuit board assembly 60 or the frame 50. The transitionsection is bendable and capable of swinging with the rotating unit 30.Alternatively, an end of transition section is directly secured by acable clipping element, so as to restrict the transition section movingfreely and ensure connection of the wires and electronic elements andthe coil element. Preferably, a length of the transition section(between clipping element and the rotating unit 30) is more than 2 cm,or more than 3 cm, or more than 4 cm, or more than 5 cm.

It should be noted that the above description is merely provided for thepurposes of illustration, and not intended to limit the scope of thepresent disclosure. For persons having ordinary skills in the art,multiple variations and modifications may be made under the teachings ofthe present disclosure. For example, the original size of k-space, thereduction factor, the amount of the acquired echoes and the amount ofdata points acquired from an echo may be changed or selected accordingto variations or modifications without departing from the scope of thepresent disclosure.

Furthermore, the recited order of processing elements or sequences, orthe use of numbers, letters, or other designations therefore, is notintended to limit the claimed processes and methods to any order exceptas may be specified in the claims. Although the above disclosurediscusses through various examples what is currently considered to be avariety of useful embodiments of the disclosure, it is to be understoodthat such detail is solely for that purpose, and that the appendedclaims are not limited to the disclosed embodiments, but, on thecontrary, are intended to cover modifications and equivalentarrangements that are within the spirit and scope of the disclosedembodiments.

Similarly, it should be appreciated that in the foregoing description ofembodiments of the present disclosure, various features are sometimesgrouped together in a single embodiment, figure, or description thereoffor the purpose of streamlining the disclosure aiding in theunderstanding of one or more of the various inventive embodiments. Thismethod of disclosure, however, is not to be interpreted as reflecting anintention that the claimed subject matter requires more features thanare expressly recited in each claim. Rather, inventive embodiments liein less than all features of a single foregoing disclosed embodiment.

What is claimed is:
 1. A RF coil assembly, comprising: one or more coilelements arranged on a shell, a cable connector electrically connectedto the coil elements, the cable connector including a number of innerwires enclosed with an outer insulative jacket, and the cable having afirst end connect to a connector and a second end rotatably connectedwith the shell.
 2. The RF coil assembly of claim 1, wherein the secondend of the cable is pivotally coupled to the shell.
 3. The RF coilassembly of claim 1, wherein the second end of the cable is connected tothe shell by a rotational device.
 4. The RF coil assembly of claim 3,wherein the rotational device has a rotating unit secured to the secondend of the cable.
 5. The RF coil assembly of claim 4, wherein therotating unit includes an upper half and a lower half assembled togetheralong up-to-down direction.
 6. The RF coil assembly of claim 5, whereinthe upper half has a first cylindrical portion protruding upwardly and afirst positioning portion projecting laterally, the lower half has asecond cylindrical portion protruding downwardly and a secondpositioning portion projecting laterally.
 7. The RF coil assembly ofclaim 6, wherein the second end of the cable is sandwiched by the firstpositioning portion and the second positioning portion.
 8. The RF coilassembly of claim 4, wherein the rotational device has a holding memberto support the rotating unit, and the rotating unit is capable ofrotating relative to the holding member.
 9. The RF coil assembly ofclaim 8, wherein the holding member is coupled to the shell.
 10. A RFcoil assembly, comprising an RF coil and a cable connector, the RF coilhaving a shell enclosing an interior room for receiving a scannedsubject, and plurality of coil elements secured to the shell anddisposed outside of the interior room, and the cable connectorelectrically connected to the coil elements, and the cable connectorhaving a cable and a connector connected to a first end of the cable,and the cable having a second end mechanically connected with the shellvia a rotational device.
 11. The RF coil assembly of claim 10, whereinthe cable connector includes a cable connector disposed in cantileveredmanner.
 12. The RF coil assembly of claim 10, wherein the cableconnector has a mating port facing downwardly.
 13. The RF coil assemblyof claim 12, wherein the interior room of the shell has a front opening,and the mating port is disposed adjacent to a rear end of the shell. 14.The RF coil assembly of claim 10, wherein the cover has a recess portionat a lateral lower side, and the cable connector is received therein.15. A RF coil assembly, comprising: one or more coil elements arrangedon a shell, a cable connector electrically connected to the coilelements, the cable connector including a number of inner wires enclosedwith an outer insulative jacket, and the cable having a first endconnect to a connector and the inner wires exposed outwardly of theouter insulative jacket of the second end of the cable and electricallyconnected to the coil elements, and the connector capable of swing froma first position to a second position.
 16. The RF coil assembly of claim15, wherein the second end of the cable is moveable relative to theshell.
 17. The RF coil assembly of claim 15, wherein a rotational deviceis pivotally engaged with the second end of the cable and coupled to thecover.
 18. The RF coil assembly of claim 17, wherein the rotatabledevice includes a rotating unit, a holding member and a fame, and therotating unit is secured to the second end of the cable and is capableof rotating within the holding member, and the holding member is mountedto the frame which is fixed to the shell.
 19. The RF coil assembly ofclaim 17, wherein the holding member has a main body and a supportingpanel laterally extending therefrom, and the main body defines areceiving space adapting the rotating unit and the inner wires are fixedto the supporting panel.
 20. The RF coil assembly of claim 17, whereinthe inner wires are configured to be serpentine type.